A connector that can couple a flexible circuit board of a head gimbal assembly to driving circuits of an apparatus coupled to a hard disk. The connector includes a pair of spring biased plates that push the flexible circuit into contact with a printed circuit board. The circuit board is coupled to the driving circuits. The pressure plates can be manually pushed into an open position to allow an operator to insert or remove the flexible circuit board from the connector.

In an electrical connector adapted to be interposed between two connection objects to electrically connect the connection objects to each other, a flexible conductive film, mounted on a base member, includes a flexible insulating film having an outer surface and an inner surface. The flexible insulating film is folded near a rear edge of the base member into a generally U shape with the outer surface kept on the outside. The flexible conductive film has a film conductive pattern formed not only the outer surface of the flexible insulating film but also on the inner surface of the flexible insulating film.

A connector that can couple a flexible circuit board of a head gimbal assembly to driving circuits of an apparatus coupled to a hard disk. The connector includes a pair of spring biased plates that push the flexible circuit into contact with a printed circuit board. The circuit board is coupled to the driving circuits. The pressure plates can be manually pushed into an open position to allow an operator to insert or remove the flexible circuit board from the connector.

A system for detecting and analyzing electrical activity in the anatomy of an organism underlying an electrode array provides signals corresponding to electrical activity adjacent each electrode. Such signals are correlated to the underlying anatomy of the organism and representative outputs presented through various types of output devices. Such outputs may include variations in coloration or other qualities in correspondence with representations of underlying anatomical structures. The system includes novel electrode structures (200, 224, and 284) and methods for producing and attaching electrode arrays (240 and 280) to the organism. The exemplary form of the invention is used in connection with the diagnosis of muscle activity in the lower lumbar regions of humans. Levels of muscle activity detected are analyzed by correlation with the muscular structures underlying the electrode array. Forms of the invention may be used in other applications.

A system for detecting and analyzing electrical activity in the anatomy of an organism underlying an electrode array provides signals corresponding to electrical activity adjacent each electrode. Such signals are correlated to the underlying anatomy of the organism and representative outputs presented through various types of output devices. Such outputs may include variations in coloration or other qualities in correspondence with representations of underlying anatomical structures. The system includes novel electrode structures (200, 224, and 284) and methods for producing and attaching electrode arrays (240 and 280) to the organism. The exemplary form of the invention is used in connection with the diagnosis of muscle activity in the lower lumbar regions of humans. Levels of muscle activity detected are analyzed by correlation with the muscular structures underlying the electrode array. Forms of the invention may be used in other applications.